Avoiding snow and ice formation on exterior solar cell surfaces – a review of research pathways and opportunities

Abstract

Today energy-efficient and energy-harvesting buildings experience an ever-increasing interest and demand. Building integrated photovoltaics (BIPV) may in this respect represent a powerful and versatile tool for reaching the goal of zero energy and zero emission buildings. The BIPV systems replace the outer building envelope skin, thus serving simultanously as both a climate screen and a power source generating electricity. However, snow and ice formation on the exterior solar cell surfaces reduce their performance and may also lead to faster deterioration. Hence, if one could find a way to develop solar cells which were able to avoid snow and ice formation on their surfaces, one would have moved a large step ahead. This work presents a review exploring miscellaneous pathways for avoiding snow and ice formation on solar cell surfaces including superhydrophobic and icephobic surfaces.

Additional Info

  • WP: Advanced materials technologies
  • Publication Year: 2016
  • Journal: Procedia Engineering
  • Volume: 145
  • Pages: 699-706
  • Name of proceedings: Proceedings of International Conference on Sustainable Design, Engineering and Construction (ICSDEC 2016)
  • Name of conference: International Conference on Sustainable Design, Engineering and Construction (ICSDEC 2016)
  • Town: Tempe
  • Country: USA
  • Date from: Wednesday, 18 May 2016
  • Date to: Friday, 20 May 2016
  • Type: Report

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